KR20060110408A - Terminal-connecting means - Google Patents

Abstract

Provided is a device for connecting a terminal, which allows easy electric connection between electrode terminals and between an electrode terminal and an external member, and prevents a short circuit and corrosion caused by water by virtue of connection portions sealed against the exterior. The device(400) for connecting a terminal comprises: a hollow electrically insulated main body having an opened top surface; and an electrically insulated cover coupled to the top surface of the main body, wherein a plate-like conductive bus bar(440) is mounted to the bottom surface of the main body, and at least two terminal insertion ports are formed on the bottom of the main body and the bus bar. The main body further comprises a connection member insertion port at a lateral side thereof so as to connect an external connection member(500) with an electrode terminal as necessary.

Description

Terminal Connector {Terminal-Connecting Means}

1 is a partial perspective view of one exemplary battery module in which the terminal connector of the present invention may be used;

2 is a perspective view of a battery cartridge constituting the battery module of FIG. 1;

3 is a partially enlarged view of a state in which electrode terminals of battery cartridges are connected to each other in the battery module of FIG. 1 using a terminal connecting device according to an embodiment of the present invention;

4 to 6 are a top perspective view, a bottom perspective view and a rear perspective view of the terminal connection device according to an embodiment of the present invention in a state in which the connection member is mounted.

<Description of Major Symbols in Drawing>

100: battery cartridge

200: unit cell

300: battery module

400: terminal connector

500: external connection member

The present invention relates to a terminal connecting device, and more particularly, a device used to electrically connect the terminals of a battery, a battery cartridge, and other power supply devices to each other or to connect the terminals to an external device. Since the part is not exposed to the outside, it prevents the risk of short circuit and protects the connecting part from corrosion by external material.

Recently, secondary batteries capable of charging and discharging have been widely used as energy sources of wireless mobile devices. In addition, the secondary battery has attracted attention as an energy source of electric vehicles, hybrid electric vehicles, etc. which are proposed as a solution for air pollution of conventional gasoline and diesel vehicles using fossil fuel.

While small mobile devices use one or three or four battery cells per device, medium and large devices such as automobiles use a battery module electrically connected to a plurality of battery cells due to the need for high output and large capacity.

In general, a battery module is built in a cartridge that connects a plurality of unit cells in series or in parallel, and is manufactured by electrically connecting a plurality of such cartridges. In some cases, a medium to large battery system may be manufactured in which two or more battery modules are electrically connected to provide higher output.

Therefore, the connection of electrode terminals is required for electrical connection between batteries (including unit cells), battery cartridges, and battery modules, and for connection with external devices to receive power from them. In addition, even when drawing a signal such as a voltage in order to control the operation of the battery as a power source, the connection between the connection member and the electrode terminal is required.

On the other hand, the terminal connection part (in the present specification, the terminal connection part is not only a connection part between the electrode terminals as described above, but also includes a connection part between a terminal and an external device, and a connection part between a terminal and a detector) Is used as a site having high risk of short circuit and is easily corroded by moisture or the like, so attention is required during operation or use.

Therefore, there are some prior arts for devices or methods for sealing the terminal connection part from the outside, but the device which can fundamentally prevent the above problem has not been developed yet.

The present invention aims to solve the problems of the prior art as described above and the technical problems that have been requested from the past.

That is, an object of the present invention is to provide a terminal connecting device that can easily perform the electrical connection between the electrode terminals.

Another object of the present invention is to provide a terminal connecting device which can prevent the risk of short circuit and corrosion by moisture by sealing the terminal connecting part from the outside.

Still another object of the present invention is to provide a terminal connection device that can achieve the same effect even when the external connection member is connected to the electrode terminal.

Terminal connection device according to the present invention for achieving the above object, the upper surface is formed of a hollow electrically insulating main body, and an electrically insulating cover coupled to the open top surface of the main body, the bottom surface of the main body It is equipped with a plate-shaped conductive bus bar, the lower end of the main body and the bus bar is formed in communication with two or more terminal insertion port, the side portion of the main body can be additionally connected to the electrode terminal as needed, the external connection member It consists of including the structure in which the connection member insertion port is formed.

Therefore, the terminal connecting device of the present invention, when the electrode terminal is inserted into the terminal insertion hole of the lower end of the main body, these electrical terminals can make an electrical connection between each other through a bus bar installed on the lower surface of the main body, the electrical connection work is very easy, Easily separated as needed. In addition, since the terminal connecting portion is sealed from the outside by sealing the open top surface of the main body with a cover, it is possible to prevent the risk of short circuit and corrosion by moisture. Furthermore, to connect an external electrical connection member to the corresponding electrode terminal for the purpose of drawing power, detecting a voltage for controlling a battery, or making an electrical connection between the battery modules, etc. By inserting the external connection member can easily achieve the purpose, in this case also can be obtained by the effect of the sealing of the connection portion as described above.

The body and the cover are not particularly limited as long as they are made of an electrically insulating material. Preferably, general purpose or engineering plastic resins such as polypropylene, polystyrene, polycarbonate, ABS, acrylic resin, nylon, polyester, and the like may be used.

The main body is not particularly limited as long as the hollow shape is empty, and preferably has a rectangular structure.

The cover may be detachably coupled to the open top surface of the body, and in one preferred embodiment, the cover is hinged to one side of the body, thereby preventing it from being completely detached.

In addition, when the main body and the cover are combined, the fastener and the corresponding coupling groove may be formed in the coupling portion of the main body and the cover so as not to be easily separated by an external impact.

The plate-shaped bus bar installed on the bottom surface of the hollow body serves to interconnect the electrode terminals inserted into the body through the terminal insertion hole. Since the number of electrode terminals inserted into the hollow body is not particularly limited, the number of bus bars may also vary accordingly. For example, when two positive terminals and two negative terminals are inserted into the main body and they are to be connected in series, two bus bars are installed. In addition, when two or more terminal insertion holes are formed, these terminal insertion holes are not necessarily formed to be located together in a straight line.

In a preferred example, the tapered fixing projections are formed on the inner side of the main body so that the bus bar can be stably fixed on the lower end of the main body so as to be slightly spaced apart from the lower end of the main body. The separation width corresponds to or slightly larger than the thickness of the bus bars. Therefore, when the bus bar is inserted into the main body, the bus bar is seated on the lower end surface of the main body through the fixing protrusion, but is difficult to separate from the lower end surface of the main body due to the downward taper structure of the fixing protrusion.

When the terminal connecting devices according to the present invention are used in two or more, they may have a structure in which they are coupled to each other. Coupling between the terminal connecting devices can be both a variable coupling structure and a fixed coupling structure. For example, the variable coupling structure is not particularly limited as a structure capable of changing the coupling distance between the terminal connecting devices as necessary, and the variable coupling structure performs electrical connection with each other in response to a change in position of the electrode terminals. It is convenient as we can do it.

In addition, the terminal connecting device according to the present invention can be used in a variety of battery systems of high output large capacity, especially for battery cars or hybrid electric vehicles, but in some cases can also be used for terminal connection of general devices.

Hereinafter, the present invention will be described in detail with reference to the drawings, but the scope of the present invention is not limited thereto.

1 is a perspective view of a part of one exemplary battery module in which the terminal connecting device of the present invention may be used, and FIG. 2 is a perspective view of a battery cartridge constituting the battery module of FIG. Is shown.

Referring to these figures, the battery cartridge 100 is composed of a pair of frames 120, 122 that can be coupled to each other. The unit cells 200 and 201 are introduced between the opened frames 120 and 122, and are fixed thereto when the frames 120 and 122 are coupled to each other. An electrode lead (not shown) of the unit cell 200 is electrically connected to an adjacent unit cell 201 through a bus bar 140 on the cartridge 100. In FIG. 1, the structure in which the unit cells 200 and 201 are connected in series is illustrated, but in some cases, a parallel connection is also possible. Based on such a configuration, the positive electrode terminal 150 and the negative electrode terminal 160 protruding from the left and right upper ends of the cartridge 100 are electrically connected to each other.

The battery module 300 is arranged so that ten cartridges may be connected in series by 180 degree alternating orientation. In detail, the electrode terminals 151 and 161 of the first cartridge 101 and the electrode terminals 152 and 162 of the second cartridge 102 are oriented opposite to each other, and the electrodes of the third cartridge 103 are aligned. The terminals 153 and 163 are positioned in the same orientation as the electrode terminals 151 and 161 of the first cartridge 101. The electrode terminals 154 and 164 of the fourth cartridge 104 are again positioned in the same orientation as the electrode terminals 152 and 162 of the second cartridge 102. The alternating orientation of these electrode terminals is the same for all cartridges. Accordingly, the electrode terminals of the odd-numbered cartridges 101, 103, 105, 107, and 109 and the electrode terminals of the even-numbered cartridges 102, 104, 106, 108, and 110 are oriented in opposite directions of 180 degrees with each other. .

The negative terminal 161 of the first cartridge 101 is connected to a BMS (not shown), and the positive terminal 151 is a negative terminal of the third cartridge 103 via a bus bar (not shown). 163 and its positive terminal 153 is connected to the negative terminal 165 of the fifth cartridge 105. The structure of the alternating alignment scheme as described above is described in detail in the applicant's Korean Patent Application No. 2004-92887, which is incorporated by reference. The feature of the alternating alignment structure as described above is that the connection length between the electrode terminals (e.g., 151 and 163) is longer than at least one thickness of the cartridge based on the structure that is not, and the first terminal connection portion 401 Since the separation width of the second terminal connection portion 402 is also widened by at least one thickness of the cartridge, it is easy to connect the electrode terminals and has an advantage of minimizing interference between the connection members. However, the terminal connection device of the present invention can be used not only for the alternating alignment structure but also for the electrical connection of the battery module of the positive alignment structure.

However, the connection between the electrode terminals in the forward alignment arrangement of the battery cartridges and the alternate alignment arrangement as shown in FIG. 1 requires precise and skilled work.

3 is a partially enlarged view of a state in which electrode terminals of battery cartridges are connected to each other in the battery module of FIG. 1 by using a terminal connecting apparatus according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the positive terminal 151 of the first cartridge 101 is electrically connected to the negative terminal 163 of the third cartridge 103 through the bus bar 440 of the first terminal connecting device 400. Connected. In addition, the positive electrode terminal 155 of the fifth cartridge 151 is electrically connected to the negative electrode terminal 167 of the seventh cartridge 107 through the bus bar 441 of the second terminal connecting device 401. In the first terminal connecting device 400, an external connection member 500 for drawing power is further connected to the positive electrode terminal 151.

4 to 6 are respectively a top perspective view, a bottom perspective view and a rear perspective view of the terminal connection device according to an embodiment of the present invention in a state where the connection member is mounted.

Referring to these drawings, the terminal connecting device 400, the box-shaped body 410, the top surface is open and the cover 420 is connected via a pair of hinges 430 to one side of the upper end of the body 410 Consists of

A plate-shaped conductive bus bar 440 is mounted on the lower surface of the main body 410, and two terminal insertion holes 412 and 413 are drilled in the lower end 411 of the main body 410.

The bus bar 440 may be stably fixed on the bottom surface of the main body 410 due to the fixing protrusion 450 formed on the inner side of the main body 410. The fixing protrusion 450 has a structure in which the outer surface thereof is tapered downward, so that the bus bar 440 can be easily pushed into the lower surface of the main body 410, while the fixing protrusion 450 is separated from the lower surface once mounted. Make it difficult to be. The fixing protrusions 450 are formed at four inner surfaces of the body 410, respectively.

A groove 414 having a size corresponding to or larger than the width of the fixing protrusion 450 is drilled directly under the fixing protrusion 450. For example, when the injection molding of the main body 410 using a plastic resin material, the small fixing projection 450 of the structure tapered downward on the inner surface of the main body 410 is sealed lower end surface 411 It is not easy to form so as to be slightly spaced apart from). Therefore, the groove 414 perforated adjacent to the lower end of the fixing protrusion 450 may enable formation of the structure as described above by providing a place where a part of the mold is inserted in the injection molding process. Alternatively, the fixing protrusion 450 of the downwardly tapered structure reaches the bottom surface 411 of the main body 410, and then a part of the fixing protrusion 450 is removed by puncturing the fixing protrusion 450 from the main body bottom surface 411. It may also be a groove 414 formed when manufactured to be slightly spaced apart.

In addition, the bus bars 440 communicate with the terminal insertion holes 412 and 413 of the lower end portion 411 of the main body, and the terminal insertion holes 442 and 443 are drilled, respectively. Therefore, as shown in FIG. 3, the electrode terminal flows into the main body 410 through the terminal insertion holes 412 and 413 of the lower end portion 411 of the main body and the terminal insertion holes 442 and 443 of the bus bar 440. .

The cover 420 has a size capable of completely covering the open upper surface of the body 410, and a fastening protrusion 421 is formed at a corresponding portion of the portion where the hinge 430 is connected. Correspondingly, the fastening groove 415 is formed on the side surface of the main body 410, thereby increasing the coupling force between the cover 420 and the main body 410.

As described above, the terminal connection device 400 is connected to the electrode terminals for the connection of the electrode terminals, as well as the extraction of power, the detection of voltage for battery control, or the electrical connection between the battery modules ( It is also used when 500 is electrically connected. Therefore, a connection member insertion hole 416 into which the external connection member 500 can be inserted is drilled on the side of the main body 410. As shown in the figure, the external connection member 500 is preferably in a plate-like strip structure, the connector 510 corresponding to the size of the electrode terminal is perforated. Therefore, when the external connecting member 500 is connected to the electrode terminal through the terminal connecting device 400, as shown in the drawing, the external connecting member 500 is first mounted on the terminal connecting device 400, and then the terminal. The connecting device 400 should be positioned at the corresponding electrode terminal.

Although the present invention has been described with reference to the accompanying drawings, those skilled in the art will be able to perform various applications and modifications within the scope of the present invention based on the above contents.

Using the terminal connecting device according to the present invention, the electrical connection between the electrode terminals, the electrical connection between the electrode terminal and the external connection member can be easily made, and the terminal connection is sealed from the outside, so the risk of short circuit and moisture Corrosion etc. by the etc. can be prevented. Such a terminal connecting device can be used widely without particular limitations wherever the electrical connection of the terminal can be achieved as described above, and can be preferably used when manufacturing a medium-large battery system such as an electric vehicle or a hybrid electric vehicle. .

Claims (12)

A hollow electrically insulating body having an open top surface, and an electrically insulating cover coupled to an open top surface of the main body, and a lower surface of the main body is equipped with a plate-shaped conductive bus bar. Two or more terminal insertion holes are formed in communication with the bus bar, and the side portion of the main body includes a structure in which a connection member insertion hole is formed to additionally connect an external connection member to an electrode terminal, if necessary. Terminal connection. The terminal connecting device according to claim 1, wherein the main body and the cover are made of plastic resin. The terminal connecting device according to claim 1, wherein the main body has a rectangular structure having an empty inside. The terminal connecting device of claim 1, wherein the cover is connected to one surface of the main body through a hinge. The terminal connection device according to claim 1, wherein when the main body and the cover are combined, fasteners and corresponding fastening grooves are formed at the coupling portions of the main body and the cover so that they are not easily separated by an external impact. The terminal according to claim 1, wherein the downwardly tapered fixing protrusions are formed on the inner side of the main body so as to be stably fixed on the lower end of the main body so as to be slightly spaced apart from the lower end of the main body. Connector. The terminal connecting device according to claim 1, characterized in that 7. The terminal connecting device according to claim 6, wherein a groove having a size corresponding to or larger than the width of the fixing protrusion is drilled on the side of the main body under the fixing protrusion. The terminal connecting device according to claim 1, wherein the connecting device is used for electrical connection between electrode terminals. The method of claim 9, wherein the connection device, along with the electrical connection between the electrode terminals, the external electrical connection member for drawing the power, the detection of the voltage for controlling the battery, or the like, the electrical connection between the battery modules. Terminal connection device, characterized in that used to electrically connect to the electrode terminal. The terminal connecting device according to claim 1, wherein two or more connecting devices are coupled to each other in a variable or fixed coupling structure. The terminal connection device according to claim 1, wherein the connection device is used in a high output large capacity battery system for an electric vehicle or a hybrid electric vehicle.

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